检测假新闻对于确保信息的真实性和维持新闻生态系统的可靠性至关重要。最近，由于最近的社交媒体和伪造的内容生成技术（例如Deep Fake）的扩散，假新闻内容的增加了。假新闻检测的大多数现有方式都集中在基于内容的方法上。但是，这些技术中的大多数无法处理生成模型生产的超现实合成媒体。我们最近的研究发现，真实和虚假新闻的传播特征是可以区分的，无论其方式如何。在这方面，我们已经根据社会环境调查了辅助信息，以检测假新闻。本文通过基于混合图神经网络的方法分析了假新闻检测的社会背景。该混合模型基于将图形神经网络集成到新闻内容上的新闻和BI定向编码器表示的传播中，以了解文本功能。因此，这种提出的方​​法可以学习内容以及上下文特征，因此能够在Politifact上以F1分别为0.91和0.93的基线模型和八西八角数据集的基线模型，分别超过了基线模型，分别在八西八学数据集中胜过0.93

最近的工作表明，光流量网络缺乏对物理，贴片的对抗攻击的鲁棒性。物理攻击汽车系统的基本组件的可能性是严重问题的原因。在本文中，我们分析了问题的原因，并表明鲁棒性源于与网络架构细节的细节中的光学流量估计的经典孔径问题。我们展示了这些错误如何纠正，以使光学流量网络变得鲁棒到物理，补丁的攻击。此外，我们看看光流量范围的全球白盒攻击。我们发现有针对性的白盒攻击可以朝向任何所需输出偏置流量估计模型，但这需要访问输入图像和模型权重。我们的结果表明，光流量网络对普遍攻击具有鲁棒性。

The FlowNet demonstrated that optical flow estimation can be cast as a learning problem. However, the state of the art with regard to the quality of the flow has still been defined by traditional methods. Particularly on small displacements and real-world data, FlowNet cannot compete with variational methods. In this paper, we advance the concept of end-to-end learning of optical flow and make it work really well. The large improvements in quality and speed are caused by three major contributions: first, we focus on the training data and show that the schedule of presenting data during training is very important. Second, we develop a stacked architecture that includes warping of the second image with intermediate optical flow. Third, we elaborate on small displacements by introducing a subnetwork specializing on small motions. FlowNet 2.0 is only marginally slower than the original FlowNet but decreases the estimation error by more than 50%. It performs on par with state-of-the-art methods, while running at interactive frame rates. Moreover, we present faster variants that allow optical flow computation at up to 140fps with accuracy matching the original FlowNet.